directionally unstable

简明释义

航向不稳的

英英释义

例句

1.The software update improved the system's performance but did not resolve the directionally unstable issue.

软件更新改善了系统性能，但并未解决方向不稳定的问题。

2.During testing, the robot exhibited directionally unstable behavior when it encountered obstacles.

在测试中，机器人在遇到障碍物时表现出方向不稳定的行为。

3.The drone was found to be directionally unstable, making it difficult to navigate in strong winds.

无人机被发现是方向不稳定的，这使得在强风中导航变得困难。

4.Engineers are working to correct the directionally unstable flight characteristics of the aircraft.

工程师们正在努力修正这架飞机的方向不稳定的飞行特性。

5.The vehicle's directionally unstable handling led to several near accidents on the highway.

该车辆的方向不稳定的操控导致高速公路上发生了几起险些事故。

作文

In the realm of physics and engineering, the term directionally unstable refers to systems or structures that do not maintain a consistent direction when subjected to external forces. This concept is critical in understanding how various materials and designs respond to stress, especially in fields such as aerospace, civil engineering, and robotics. For instance, consider an airplane in flight. If the aircraft becomes directionally unstable, it may veer off course unpredictably, leading to potential hazards. Engineers must ensure that the design incorporates features that enhance stability, thereby preventing such occurrences.Similarly, in civil engineering, buildings and bridges must be constructed with an awareness of directionally unstable conditions, particularly in areas prone to earthquakes or high winds. A structure that is directionally unstable could suffer catastrophic failure if it cannot withstand lateral forces. This is why engineers use specific materials and design principles to create resilient structures that can endure unexpected stresses.Moreover, the concept of directionally unstable can extend beyond physical structures to systems in economics and social sciences. For example, a market that is directionally unstable may experience erratic fluctuations in prices due to unpredictable consumer behavior or external shocks. Investors and policymakers must be aware of these instabilities to make informed decisions that can mitigate risks and promote stability.In robotics, the idea of directionally unstable is also relevant. Robots designed for complex terrains, like those used in search and rescue operations, must be equipped with sensors and algorithms that help them maintain stability. If a robot encounters a slope or uneven surface, it must adjust its movements to avoid becoming directionally unstable. This requires sophisticated programming and real-time data processing to ensure that the robot can navigate effectively without losing its balance.Understanding the implications of directionally unstable systems is essential for innovation and safety across various domains. As technology advances, the need for stability in design becomes increasingly important. Researchers continue to explore new materials and methods to enhance stability in both natural and man-made systems. The ongoing challenge is to predict and manage directionally unstable conditions to prevent failures and accidents.In conclusion, the term directionally unstable encapsulates a significant aspect of stability in multiple disciplines. Whether in engineering, economics, or robotics, recognizing and addressing directionally unstable characteristics is crucial for ensuring safety and efficiency. As we continue to push the boundaries of technology and design, the importance of understanding this concept will only grow, highlighting the need for ongoing research and development in stability-enhancing solutions.

在物理和工程领域，术语方向不稳定指的是当受到外力作用时，系统或结构不能保持一致方向的情况。这个概念对于理解各种材料和设计在应力下的反应至关重要，尤其是在航空航天、土木工程和机器人等领域。例如，考虑一架飞行中的飞机。如果飞机变得方向不稳定，它可能会不可预测地偏离航线，导致潜在的危险。工程师必须确保设计中包含增强稳定性的特征，从而防止这种情况的发生。同样，在土木工程中，建筑物和桥梁必须在意识到方向不稳定条件的情况下进行建造，特别是在地震或强风频发的地区。如果一个结构是方向不稳定的，它可能无法承受横向力而遭受灾难性故障。这就是为什么工程师使用特定材料和设计原则来创建能够承受意外压力的坚固结构。此外，方向不稳定的概念也可以扩展到经济学和社会科学中的系统。例如，一个方向不稳定的市场可能由于消费者行为或外部冲击的不可预测性而经历价格的剧烈波动。投资者和政策制定者必须意识到这些不稳定性，以便做出明智的决策，从而减轻风险并促进稳定。在机器人技术中，方向不稳定的概念同样相关。设计用于复杂地形的机器人，例如那些用于搜救行动的机器人，必须配备传感器和算法，以帮助它们保持稳定。如果机器人遇到坡度或不平坦的表面，它必须调整其运动以避免变得方向不稳定。这需要复杂的编程和实时数据处理，以确保机器人能够有效导航而不失去平衡。理解方向不稳定系统的影响对于各个领域的创新和安全至关重要。随着技术的进步，对设计稳定性的需求变得越来越重要。研究人员继续探索新材料和方法，以增强自然和人造系统的稳定性。持续的挑战是预测和管理方向不稳定的条件，以防止故障和事故。总之，术语方向不稳定概括了多个学科中稳定性的重要方面。无论是在工程、经济学还是机器人技术中，识别和解决方向不稳定特征对于确保安全和效率至关重要。随着我们继续推动技术和设计的边界，理解这一概念的重要性将只会增加，突显出对稳定性增强解决方案的持续研究和开发的需求。